The Deposition of Ni/Cr-Cr3C2 Composite Coatings by Arc-EB Hybrid Technology

Jerzy Smolik; Adam Mazurkiewicz

doi:10.4028/www.scientific.net/MSF.674.71

Paper Titles

Porous Titanium Scaffolds for Biomedical Applications: Corrosion Resistance and Structure Investigation
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Homogeneity of Bulk Nanostructured Titanium Obtained by Hydrostatic Extrusion
p.47

Structure and Functional Properties of Microcrystalline NiTi Alloy after Severe Deformation and Subsequent Annealing
p.53

Structure Refinement Induced by Deformation Twinning in 77K Tensile Cu-8%at.Al Single Crystals
p.61

The Deposition of Ni/Cr-Cr₃C₂ Composite Coatings by Arc-EB Hybrid Technology
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Thermo-Chemical Process of Aluminizing of the Nickel-Base Superalloy
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Thermal Stability of Microstructure of Aluminide Layer Deposited by CVD Method on CMSX 4 Nickel Base Superalloy
p.89

Influence of Grain Refining on Abrasive Wear of Submicrocrystalline Al-Si Alloys
p.97

Nanocomposite PVD Coatings Applied to Cold Plastic Forming Tools
p.105

HomeMaterials Science ForumMaterials Science Forum Vol. 674The Deposition of Ni/Cr-Cr3C2 Composite Coatings...

The Deposition of Ni/Cr-Cr₃C₂ Composite Coatings by Arc-EB Hybrid Technology

Abstract:

The new hybrid technology is a combination of electron beam evaporation and arcevaporation processes, enabling the creation of the anti-erosion multilayer composite coating Ni/Cr- Cr3C2 with different volume of Cr3C2 filling in soft Ni/Cr matrix. The soft matrix made of Ni/Cr alloy and hard filling of Cr3C2 are created at the same time and directly during the electron beam and arc-evaporation process. Changes of the parameters of the hybrid process, i.e. pressure, current of arc discharge and substrate bias voltage Ubias, make it possible to control the volume of Cr3C2 and are a factor in filling the soft Cr/Ni matrix with carbides Cr3C2. With the use of the developed surface treatment hybrid technology, the multilayer composite coating Ni/Cr-Cr3C2 were obtained. For all composite layers created, the material properties, such as morphology, phase and chemical compositions, hardness, and Young modulus were investigated. The paper presents the original technological equipment, methodology, and technological parameters for the creation of the composite coating Ni/Cr-Cr3C2.